Graphene Roadmap Briefs (No. 2): industrialization status and prospects 2020

背景(考古学) 工业化 供应链 技术路线图 石墨烯 业务 纳米技术 政治学 营销 材料科学 法学 古生物学 生物
作者
Henning Döscher,Thomas Schmaltz,Christoph Neef,Axel Thielmann,Thomas Reiß
出处
期刊:2D materials [IOP Publishing]
卷期号:8 (2): 022005-022005 被引量:43
标识
DOI:10.1088/2053-1583/abddcd
摘要

Abstract The remarkable properties of graphene and related materials (GRMs) promise substantial benefits for a wide range of technologies. Their industrial utilization, however, critically depends on the availability of suitable GRM supply in terms of both quality and quantity at a competitive price. All factors remain highly specific to the each application scenario, while the emerging GRM supply industry still struggles to engage prospective clients in active development of GRM-enhanced products. The present issue of Graphene Roadmap Briefs compiles results on the status and prospects of GRM industrialization gathered by several innovation interface investigations (3I) that we conducted throughout the past 3 years. Each 3I study focussed a unique prospective value chain that GRM innovation promises to enable or advance in the future. While individual roadmaps mainly cover the peculiarities of the specific GRM supply chain under investigation, we combine all results regarding the primary material supply sector and it is rapidly evolving innovation context in Europe and beyond here. We introduce both the initial 2018 graphene industrialization roadmap and its thorough 2020 revision and extension. Our conclusions cover both crucial factors hampering the diffusion GRM today and opportunities to overcome these bottlenecks in the future. About: Graphene Roadmap Briefs Graphene Roadmap Briefs highlight key innovation areas impacted by graphene and related 2D materials (GRMs) as well as overarching aspects of GRM innovation status and prospects. The series bases on the evolving technology and innovation roadmap process initiated by the European Graphene Flagship. It covers crucial innovation trends beyond fundamental scientific discovery and applied research on GRM utilization opportunities.
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